Human motor cortical gamma activity relates to GABAergic intracortical inhibition and motor learning.
Here, Zich and colleagues studied a certain type of brain waves called gamma waves (frequency >30 Hz) during movement. Using brain scans, stimulation, and movement tasks, they identified two distinct gamma patterns: slow-gamma (30-60 Hz) linked to inhibitory brain chemicals, and mid-gamma (60-90 Hz) associated with motor learning. These findings help explain how gamma brain waves support human movement and skill acquisition.
Scientific Abstract
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Human motor cortical gamma activity relates to GABAergic intracortical inhibition and motor learning.
Here, Zich and colleagues studied a certain type of brain waves called gamma waves (frequency >30 Hz) during movement. Using brain scans, stimulation, and movement tasks, they identified two distinct gamma patterns: slow-gamma (30-60 Hz) linked to inhibitory brain chemicals, and mid-gamma (60-90 Hz) associated with motor learning. These findings help explain how gamma brain waves support human movement and skill acquisition.
Scientific Abstract
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